/*

Copyright (c) 2014-2020, Arvid Norberg
Copyright (c) 2016-2018, Alden Torres
Copyright (c) 2017, Steven Siloti
Copyright (c) 2017, Andrei Kurushin
Copyright (c) 2018, TheOriginalWinCat
Copyright (c) 2019, Amir Abrams
Copyright (c) 2020, Paul-Louis Ageneau
All rights reserved.

You may use, distribute and modify this code under the terms of the BSD license,
see LICENSE file.
*/

#ifndef TORRENT_SETTINGS_PACK_HPP_INCLUDED
#define TORRENT_SETTINGS_PACK_HPP_INCLUDED

#include "libtorrent/entry.hpp"
#include "libtorrent/string_view.hpp"
#include "libtorrent/flags.hpp"

#include <vector>
#include <memory>

// OVERVIEW
//
// You have some control over session configuration through the session::apply_settings()
// member function. To change one or more configuration options, create a settings_pack
// object and fill it with the settings to be set and pass it in to session::apply_settings().
//
// The settings_pack object is a collection of settings updates that are applied
// to the session when passed to session::apply_settings(). It's empty when
// constructed.
//
// You have control over proxy and authorization settings and also the user-agent
// that will be sent to the tracker. The user-agent will also be used to identify the
// client with other peers.
//
// Each configuration option is named with an enum value inside the
// settings_pack class. These are the available settings:
namespace libtorrent {

namespace aux {
	struct session_impl;
	struct session_settings;
	struct session_settings_single_thread;
}

	struct settings_pack;
	struct bdecode_node;

	TORRENT_EXTRA_EXPORT settings_pack load_pack_from_dict(bdecode_node const& settings);

	TORRENT_EXTRA_EXPORT void save_settings_to_dict(settings_pack const& sett, entry::dictionary_type& out);
	TORRENT_EXTRA_EXPORT settings_pack non_default_settings(aux::session_settings const& sett);
	TORRENT_EXTRA_EXPORT void apply_pack(settings_pack const* pack, aux::session_settings& sett
		, aux::session_impl* ses = nullptr);
	TORRENT_EXTRA_EXPORT void apply_pack_impl(settings_pack const* pack
		, aux::session_settings_single_thread& sett
		, std::vector<void(aux::session_impl::*)()>* callbacks = nullptr);
	TORRENT_EXTRA_EXPORT void run_all_updates(aux::session_impl& ses);

	// converts a setting integer (from the enums string_types, int_types or
	// bool_types) to a string, and vice versa.
	TORRENT_EXPORT int setting_by_name(string_view name);
	TORRENT_EXPORT char const* name_for_setting(int s);

	// returns a settings_pack with every setting set to its default value
	TORRENT_EXPORT settings_pack default_settings();

	// the common interface to settings_pack and the internal representation of
	// settings.
	struct TORRENT_EXPORT settings_interface
	{
		virtual void set_str(int name, std::string val) = 0;
		virtual void set_int(int name, int val) = 0;
		virtual void set_bool(int name, bool val) = 0;
		virtual bool has_val(int name) const = 0;

		virtual std::string const& get_str(int name) const = 0;
		virtual int get_int(int name) const = 0;
		virtual bool get_bool(int name) const = 0;

		template <typename Type, typename Tag>
		// hidden
		void set_int(int name, flags::bitfield_flag<Type, Tag> const val)
		{ set_int(name, static_cast<int>(static_cast<Type>(val))); }

		// hidden
		// these are here just to suppress the warning about virtual destructors
		// internal
		settings_interface() = default;
		settings_interface(settings_interface const&) = default;
		settings_interface(settings_interface&&) = default;
		settings_interface& operator=(settings_interface const&) = default;
		settings_interface& operator=(settings_interface&&) = default;
	protected:
		~settings_interface() = default;
	};

	// The ``settings_pack`` struct, contains the names of all settings as
	// enum values. These values are passed in to the ``set_str()``,
	// ``set_int()``, ``set_bool()`` functions, to specify the setting to
	// change.
	//
	// .. include:: settings-ref.rst
	//
	struct TORRENT_EXPORT settings_pack final : settings_interface
	{
		friend TORRENT_EXTRA_EXPORT void apply_pack_impl(settings_pack const*
			, aux::session_settings_single_thread&
			, std::vector<void(aux::session_impl::*)()>*);

		// hidden
		settings_pack() = default;
		settings_pack(settings_pack const&) = default;
		settings_pack(settings_pack&&) noexcept = default;
		settings_pack& operator=(settings_pack const&) = default;
		settings_pack& operator=(settings_pack&&) noexcept = default;

		// set a configuration option in the settings_pack. ``name`` is one of
		// the enum values from string_types, int_types or bool_types. They must
		// match the respective type of the set_* function.
		void set_str(int name, std::string val) override;
		void set_int(int name, int val) override;
		void set_bool(int name, bool val) override;
		template <typename Type, typename Tag>
		void set_int(int name, flags::bitfield_flag<Type, Tag> const val)
		{ set_int(name, static_cast<int>(static_cast<Type>(val))); }

		// queries whether the specified configuration option has a value set in
		// this pack. ``name`` can be any enumeration value from string_types,
		// int_types or bool_types.
		bool has_val(int name) const override;

		// clear the settings pack from all settings
		void clear();

		// clear a specific setting from the pack
		void clear(int name);

		// queries the current configuration option from the settings_pack.
		// ``name`` is one of the enumeration values from string_types, int_types
		// or bool_types. The enum value must match the type of the get_*
		// function.
		std::string const& get_str(int name) const override;
		int get_int(int name) const override;
		bool get_bool(int name) const override;

		// setting names (indices) are 16 bits. The two most significant
		// bits indicate what type the setting has. (string, int, bool)
		enum type_bases
		{
			string_type_base = 0x0000,
			int_type_base =    0x4000,
			bool_type_base =   0x8000,
			type_mask =        0xc000,
			index_mask =       0x3fff
		};

		// internal
		template <typename Fun>
		void for_each(Fun&& f) const
		{
			for (auto const& s : m_strings) f(s.first, s.second);
			for (auto const& i : m_ints) f(i.first, i.second);
			for (auto const& b : m_bools) f(b.first, b.second);
		}

		// hidden
		enum string_types
		{
			// this is the client identification to the tracker. The recommended
			// format of this string is: "client-name/client-version
			// libtorrent/libtorrent-version". This name will not only be used when
			// making HTTP requests, but also when sending extended headers to
			// peers that support that extension. It may not contain \r or \n
			user_agent = string_type_base,

			// ``announce_ip`` is the ip address passed along to trackers as the
			// ``&ip=`` parameter. If left as the default, that parameter is
			// omitted.
			//
			// .. note::
			//    This setting is only meant for very special cases where a seed is
			//    running on the same host as the tracker, and the tracker accepts
			//    the IP parameter (which normal trackers don't). Do not set this
			//    option unless you also control the tracker.
			announce_ip,

#if TORRENT_ABI_VERSION == 1
			// ``mmap_cache`` may be set to a filename where the disk cache will
			// be mmapped to. This could be useful, for instance, to map the disk
			// cache from regular rotating hard drives onto an SSD drive. Doing
			// that effectively introduces a second layer of caching, allowing the
			// disk cache to be as big as can fit on an SSD drive (probably about
			// one order of magnitude more than the available RAM). The intention
			// of this setting is to set it up once at the start up and not change
			// it while running. The setting may not be changed as long as there
			// are any disk buffers in use. This default to the empty string,
			// which means use regular RAM allocations for the disk cache. The
			// file specified will be created and truncated to the disk cache size
			// (``cache_size``). Any existing file with the same name will be
			// replaced.
			//
			// This feature requires the ``mmap`` system call, on systems that
			// don't have ``mmap`` this setting is ignored.
			mmap_cache TORRENT_DEPRECATED_ENUM,
#else
			deprecated_mmap_cache,
#endif

			// this is the client name and version identifier sent to peers in the
			// handshake message. If this is an empty string, the user_agent is
			// used instead. This string must be a UTF-8 encoded unicode string.
			handshake_client_version,

			// This controls which IP address outgoing TCP peer connections are bound
			// to, in addition to controlling whether such connections are also
			// bound to a specific network interface/adapter (*bind-to-device*).
			// This string is a comma-separated list of IP addresses and
			// interface names. An empty string will not bind TCP sockets to a
			// device, and let the network stack assign the local address. A
			// list of names will be used to bind outgoing TCP sockets in a
			// round-robin fashion. An IP address will simply be used to `bind()`
			// the socket. An interface name will attempt to bind the socket to
			// that interface. If that fails, or is unsupported, one of the IP
			// addresses configured for that interface is used to `bind()` the
			// socket to. If the interface or adapter doesn't exist, the
			// outgoing peer connection will fail with an error message suggesting
			// the device cannot be found. Adapter names on Unix systems are of
			// the form "eth0", "eth1", "tun0", etc. This may be useful for
			// clients that are multi-homed. Binding an outgoing connection to a
			// local IP does not necessarily make the connection via the
			// associated NIC/Adapter.
			outgoing_interfaces,

			// a comma-separated list of (IP or device name, port) pairs. These are
			// the listen ports that will be opened for accepting incoming uTP and
			// TCP peer connections. These are also used for *outgoing* uTP and UDP
			// tracker connections and DHT nodes.
			//
			// It is possible to listen on multiple interfaces and
			// multiple ports. Binding to port 0 will make the operating system
			// pick the port.
			//
			// .. note::
			//    There are reasons to stick to the same port across sessions,
			//    which would mean only using port 0 on the first start, and
			//    recording the port that was picked for subsequent startups.
			//    Trackers, the DHT and other peers will remember the port they see
			//    you use and hand that port out to other peers trying to connect
			//    to you, as well as trying to connect to you themselves.
			//
			// A port that has an "s" suffix will accept SSL peer connections. (note
			// that SSL sockets are only available in builds with SSL support)
			//
			// A port that has an "l" suffix will be considered a local network.
			// i.e. it's assumed to only be able to reach hosts in the same local
			// network as the IP address (based on the netmask associated with the
			// IP, queried from the operating system).
			//
			// if binding fails, the listen_failed_alert is posted. Once a
			// socket binding succeeds (if it does), the listen_succeeded_alert
			// is posted. There may be multiple failures before a success.
			//
			// If a device name that does not exist is configured, no listen
			// socket will be opened for that interface. If this is the only
			// interface configured, it will be as if no listen ports are
			// configured.
			//
			// If no listen ports are configured (e.g. listen_interfaces is an
			// empty string), networking will be disabled. No DHT will start, no
			// outgoing uTP or tracker connections will be made. No incoming TCP
			// or uTP connections will be accepted. (outgoing TCP connections
			// will still be possible, depending on
			// settings_pack::outgoing_interfaces).
			//
			// For example:
			// ``[::1]:8888`` - will only accept connections on the IPv6 loopback
			// address on port 8888.
			//
			// ``eth0:4444,eth1:4444`` - will accept connections on port 4444 on
			// any IP address bound to device ``eth0`` or ``eth1``.
			//
			// ``[::]:0s`` - will accept SSL connections on a port chosen by the
			// OS. And not accept non-SSL connections at all.
			//
			// ``0.0.0.0:6881,[::]:6881`` - binds to all interfaces on port 6881.
			//
			// ``10.0.1.13:6881l`` - binds to the local IP address, port 6881, but
			// only allow talking to peers on the same local network. The netmask
			// is queried from the operating system. Interfaces marked ``l`` are
			// not announced to trackers, unless the tracker is also on the same
			// local network.
			//
			// Windows OS network adapter device name must be specified with GUID.
			// It can be obtained from "netsh lan show interfaces" command output.
			// GUID must be uppercased string embraced in curly brackets.
			// ``{E4F0B674-0DFC-48BB-98A5-2AA730BDB6D6}:7777`` - will accept
			// connections on port 7777 on adapter with this GUID.
			//
			// For more information, see the `Multi-homed hosts`_ section.
			//
			// .. _`Multi-homed hosts`: manual-ref.html#multi-homed-hosts
			listen_interfaces,

			// when using a proxy, this is the hostname where the proxy is running
			// see proxy_type. Note that when using a proxy, the
			// settings_pack::listen_interfaces setting is overridden and only a
			// single interface is created, just to contact the proxy. This
			// means a proxy cannot be combined with SSL torrents or multiple
			// listen interfaces. This proxy listen interface will not accept
			// incoming TCP connections, will not map ports with any gateway and
			// will not enable local service discovery. All traffic is supposed
			// to be channeled through the proxy.
			proxy_hostname,

			// when using a proxy, these are the credentials (if any) to use when
			// connecting to it. see proxy_type
			proxy_username,
			proxy_password,

			// sets the i2p_ SAM bridge to connect to. set the port with the
			// ``i2p_port`` setting.
			//
			// .. _i2p: http://www.i2p2.de
			i2p_hostname,

			// this is the fingerprint for the client. It will be used as the
			// prefix to the peer_id. If this is 20 bytes (or longer) it will be
			// truncated to 20 bytes and used as the entire peer-id
			//
			// There is a utility function, generate_fingerprint() that can be used
			// to generate a standard client peer ID fingerprint prefix.
			peer_fingerprint,

			// This is a comma-separated list of IP port-pairs. They will be added
			// to the DHT node (if it's enabled) as back-up nodes in case we don't
			// know of any.
			//
			// Changing these after the DHT has been started may not have any
			// effect until the DHT is restarted.
			dht_bootstrap_nodes,

			// This is the STUN server used by WebTorrent to enable ICE NAT
			// traversal for WebRTC. It must have the format ``hostname:port``.
			webtorrent_stun_server,

			max_string_setting_internal
		};

		// hidden
		enum bool_types
		{
			// determines if connections from the same IP address as existing
			// connections should be rejected or not. Rejecting multiple connections
			// from the same IP address will prevent abusive
			// behavior by peers. The logic for determining whether connections are
			// to the same peer is more complicated with this enabled, and more
			// likely to fail in some edge cases. It is not recommended to enable
			// this feature.
			allow_multiple_connections_per_ip = bool_type_base,

#if TORRENT_ABI_VERSION == 1
			// if set to true, upload, download and unchoke limits are ignored for
			// peers on the local network. This option is *DEPRECATED*, please use
			// set_peer_class_filter() instead.
			ignore_limits_on_local_network TORRENT_DEPRECATED_ENUM,
#else
			deprecated_ignore_limits_on_local_network,
#endif

			// ``send_redundant_have`` controls if have messages will be sent to
			// peers that already have the piece. This is typically not necessary,
			// but it might be necessary for collecting statistics in some cases.
			send_redundant_have,

#if TORRENT_ABI_VERSION == 1
			// if this is true, outgoing bitfields will never be fuil. If the
			// client is seed, a few bits will be set to 0, and later filled in
			// with have messages. This is to prevent certain ISPs from stopping
			// people from seeding.
			lazy_bitfields TORRENT_DEPRECATED_ENUM,
#else
			deprecated_lazy_bitfield,
#endif

			// ``use_dht_as_fallback`` determines how the DHT is used. If this is
			// true, the DHT will only be used for torrents where all trackers in
			// its tracker list has failed. Either by an explicit error message or
			// a time out. If this is false, the DHT is used regardless of if the
			// trackers fail or not.
			use_dht_as_fallback,

			// ``upnp_ignore_nonrouters`` indicates whether or not the UPnP
			// implementation should ignore any broadcast response from a device
			// whose address is not on our subnet. i.e.
			// it's a way to not talk to other people's routers by mistake.
			upnp_ignore_nonrouters,

			// ``use_parole_mode`` specifies if parole mode should be used. Parole
			// mode means that peers that participate in pieces that fail the hash
			// check are put in a mode where they are only allowed to download
			// whole pieces. If the whole piece a peer in parole mode fails the
			// hash check, it is banned. If a peer participates in a piece that
			// passes the hash check, it is taken out of parole mode.
			use_parole_mode,

#if TORRENT_ABI_VERSION == 1
			// enable and disable caching of blocks read from disk. the purpose of
			// the read cache is partly read-ahead of requests but also to avoid
			// reading blocks back from the disk multiple times for popular
			// pieces.
			use_read_cache TORRENT_DEPRECATED_ENUM,
			use_write_cache TORRENT_DEPRECATED_ENUM,

			// this will make the disk cache never flush a write piece if it would
			// cause is to have to re-read it once we want to calculate the piece
			// hash
			dont_flush_write_cache TORRENT_DEPRECATED_ENUM,

			// allocate separate, contiguous, buffers for read and write calls.
			// Only used where writev/readv cannot be used will use more RAM but
			// may improve performance
			coalesce_reads TORRENT_DEPRECATED_ENUM,
			coalesce_writes TORRENT_DEPRECATED_ENUM,
#else
			deprecated_use_read_cache,
			deprecated_use_write_cache,
			deprecated_flush_write_cache,
			deprecated_coalesce_reads,
			deprecated_coalesce_writes,
#endif

			// if true, prefer seeding torrents when determining which torrents to give
			// active slots to. If false, give preference to downloading torrents
			auto_manage_prefer_seeds,

			// if ``dont_count_slow_torrents`` is true, torrents without any
			// payload transfers are not subject to the ``active_seeds`` and
			// ``active_downloads`` limits. This is intended to make it more
			// likely to utilize all available bandwidth, and avoid having
			// torrents that don't transfer anything block the active slots.
			dont_count_slow_torrents,

			// ``close_redundant_connections`` specifies whether libtorrent should
			// close connections where both ends have no utility in keeping the
			// connection open. For instance if both ends have completed their
			// downloads, there's no point in keeping it open.
			close_redundant_connections,

			// If ``prioritize_partial_pieces`` is true, partial pieces are picked
			// before pieces that are more rare. If false, rare pieces are always
			// prioritized, unless the number of partial pieces is growing out of
			// proportion.
			prioritize_partial_pieces,

			// if set to true, the estimated TCP/IP overhead is drained from the
			// rate limiters, to avoid exceeding the limits with the total traffic
			rate_limit_ip_overhead,

			// ``announce_to_all_trackers`` controls how multi tracker torrents
			// are treated. If this is set to true, all trackers in the same tier
			// are announced to in parallel. If all trackers in tier 0 fails, all
			// trackers in tier 1 are announced as well. If it's set to false, the
			// behavior is as defined by the multi tracker specification.
			//
			// ``announce_to_all_tiers`` also controls how multi tracker torrents
			// are treated. When this is set to true, one tracker from each tier
			// is announced to. This is the uTorrent behavior. To be compliant
			// with the Multi-tracker specification, set it to false.
			announce_to_all_tiers,
			announce_to_all_trackers,

			// ``prefer_udp_trackers``: true means that trackers
			// may be rearranged in a way that udp trackers are always tried
			// before http trackers for the same hostname. Setting this to false
			// means that the tracker's tier is respected and there's no
			// preference of one protocol over another.
			prefer_udp_trackers,

#if TORRENT_ABI_VERSION == 1
			// ``strict_super_seeding`` when this is set to true, a piece has to
			// have been forwarded to a third peer before another one is handed
			// out. This is the traditional definition of super seeding.
			strict_super_seeding TORRENT_DEPRECATED_ENUM,
#else
			deprecated_strict_super_seeding,
#endif

#if TORRENT_ABI_VERSION == 1
			// if this is set to true, the memory allocated for the disk cache
			// will be locked in physical RAM, never to be swapped out. Every time
			// a disk buffer is allocated and freed, there will be the extra
			// overhead of a system call.
			lock_disk_cache TORRENT_DEPRECATED_ENUM,
#else
			deprecated_lock_disk_cache,
#endif

			// when set to true, all data downloaded from peers will be assumed to
			// be correct, and not tested to match the hashes in the torrent this
			// is only useful for simulation and testing purposes (typically
			// combined with disabled_storage)
			disable_hash_checks,

			// if this is true, i2p torrents are allowed to also get peers from
			// other sources than the tracker, and connect to regular IPs, not
			// providing any anonymization. This may be useful if the user is not
			// interested in the anonymization of i2p, but still wants to be able
			// to connect to i2p peers.
			allow_i2p_mixed,

#if TORRENT_ABI_VERSION == 1
			// ``low_prio_disk`` determines if the disk I/O should use a normal or
			// low priority policy. True, means that it's
			// low priority by default. Other processes doing disk I/O will
			// normally take priority in this mode. This is meant to improve the
			// overall responsiveness of the system while downloading in the
			// background. For high-performance server setups, this might not be
			// desirable.
			low_prio_disk TORRENT_DEPRECATED_ENUM,
#else
			deprecated_low_prio_disk,
#endif

			// ``volatile_read_cache``, if this is set to true, read cache blocks
			// that are hit by peer read requests are removed from the disk cache
			// to free up more space. This is useful if you don't expect the disk
			// cache to create any cache hits from other peers than the one who
			// triggered the cache line to be read into the cache in the first
			// place.
			volatile_read_cache,

#if TORRENT_ABI_VERSION == 1
			// ``guided_read_cache`` enables the disk cache to adjust the size of
			// a cache line generated by peers to depend on the upload rate you
			// are sending to that peer. The intention is to optimize the RAM
			// usage of the cache, to read ahead further for peers that you're
			// sending faster to.
			guided_read_cache TORRENT_DEPRECATED_ENUM,
#else
			deprecated_guided_read_cache,
#endif

			// ``no_atime_storage`` this is a Linux-only option and passes in the
			// ``O_NOATIME`` to ``open()`` when opening files. This may lead to
			// some disk performance improvements.
			no_atime_storage,

			// ``incoming_starts_queued_torrents``.  If a torrent
			// has been paused by the auto managed feature in libtorrent, i.e. the
			// torrent is paused and auto managed, this feature affects whether or
			// not it is automatically started on an incoming connection. The main
			// reason to queue torrents, is not to make them unavailable, but to
			// save on the overhead of announcing to the trackers, the DHT and to
			// avoid spreading one's unchoke slots too thin. If a peer managed to
			// find us, even though we're no in the torrent anymore, this setting
			// can make us start the torrent and serve it.
			incoming_starts_queued_torrents,

			// when set to true, the downloaded counter sent to trackers will
			// include the actual number of payload bytes downloaded including
			// redundant bytes. If set to false, it will not include any redundancy
			// bytes
			report_true_downloaded,

			// ``strict_end_game_mode`` controls when a
			// block may be requested twice. If this is ``true``, a block may only
			// be requested twice when there's at least one request to every piece
			// that's left to download in the torrent. This may slow down progress
			// on some pieces sometimes, but it may also avoid downloading a lot
			// of redundant bytes. If this is ``false``, libtorrent attempts to
			// use each peer connection to its max, by always requesting
			// something, even if it means requesting something that has been
			// requested from another peer already.
			strict_end_game_mode,

#if TORRENT_ABI_VERSION == 1
			// if ``broadcast_lsd`` is set to true, the local peer discovery (or
			// Local Service Discovery) will not only use IP multicast, but also
			// broadcast its messages. This can be useful when running on networks
			// that don't support multicast. Since broadcast messages might be
			// expensive and disruptive on networks, only every 8th announce uses
			// broadcast.
			broadcast_lsd TORRENT_DEPRECATED_ENUM,
#else
			deprecated_broadcast_lsd,
#endif

			// Enables incoming and outgoing, TCP and uTP peer connections.
			// ``false`` is disabled and ``true`` is enabled. When outgoing
			// connections are disabled, libtorrent will simply not make
			// outgoing peer connections with the specific transport protocol.
			// Disabled incoming peer connections will simply be rejected.
			// These options only apply to peer connections, not tracker- or any
			// other kinds of connections.
			enable_outgoing_utp,
			enable_incoming_utp,
			enable_outgoing_tcp,
			enable_incoming_tcp,

#if TORRENT_ABI_VERSION == 1
			// ``ignore_resume_timestamps`` determines if the storage, when
			// loading resume data files, should verify that the file modification
			// time with the timestamps in the resume data. False, means timestamps
			// are taken into account, and resume
			// data is less likely to accepted (torrents are more likely to be
			// fully checked when loaded). It might be useful to set this to true
			// if your network is faster than your disk, and it would be faster to
			// redownload potentially missed pieces than to go through the whole
			// storage to look for them.
			ignore_resume_timestamps TORRENT_DEPRECATED_ENUM,
#else
			// hidden
			deprecated_ignore_resume_timestamps,
#endif

			// ``no_recheck_incomplete_resume`` determines if the storage should
			// check the whole files when resume data is incomplete or missing or
			// whether it should simply assume we don't have any of the data. If
			// false, any existing files will be checked.
			// By setting this setting to true, the files won't be checked, but
			// will go straight to download mode.
			no_recheck_incomplete_resume,

			// ``anonymous_mode``: When set to true, the client
			// tries to hide its identity to a certain degree. The user-agent will be
			// reset to an empty string (except for private torrents). Trackers
			// will only be used if they are using a proxy server.
			// The listen sockets are closed, and incoming
			// connections will only be accepted through a SOCKS5 or I2P proxy (if
			// a peer proxy is set up and is run on the same machine as the
			// tracker proxy). Since no incoming connections are accepted,
			// NAT-PMP, UPnP, DHT and local peer discovery are all turned off when
			// this setting is enabled.
			//
			// If you're using I2P, it might make sense to enable anonymous mode
			// as well.
			anonymous_mode,

			// specifies whether downloads from web seeds is reported to the
			// tracker or not. Turning it off also excludes web
			// seed traffic from other stats and download rate reporting via the
			// libtorrent API.
			report_web_seed_downloads,

#if TORRENT_ABI_VERSION == 1
			// set to true if uTP connections should be rate limited This option
			// is *DEPRECATED*, please use set_peer_class_filter() instead.
			rate_limit_utp TORRENT_DEPRECATED_ENUM,
#else
			deprecated_rate_limit_utp,
#endif

#if TORRENT_ABI_VERSION == 1
			// if this is true, the ``&ip=`` argument in tracker requests (unless
			// otherwise specified) will be set to the intermediate IP address if
			// the user is double NATed. If the user is not double NATed, this
			// option does not have an affect
			announce_double_nat TORRENT_DEPRECATED_ENUM,
#else
			deprecated_announce_double_nat,
#endif

			// ``seeding_outgoing_connections`` determines if seeding (and
			// finished) torrents should attempt to make outgoing connections or
			// not. It may be set to false in very
			// specific applications where the cost of making outgoing connections
			// is high, and there are no or small benefits of doing so. For
			// instance, if no nodes are behind a firewall or a NAT, seeds don't
			// need to make outgoing connections.
			seeding_outgoing_connections,

			// when this is true, libtorrent will not attempt to make outgoing
			// connections to peers whose port is < 1024. This is a safety
			// precaution to avoid being part of a DDoS attack
			no_connect_privileged_ports,

			// ``smooth_connects`` means the number of
			// connection attempts per second may be limited to below the
			// ``connection_speed``, in case we're close to bump up against the
			// limit of number of connections. The intention of this setting is to
			// more evenly distribute our connection attempts over time, instead
			// of attempting to connect in batches, and timing them out in
			// batches.
			smooth_connects,

			// always send user-agent in every web seed request. If false, only
			// the first request per http connection will include the user agent
			always_send_user_agent,

			// ``apply_ip_filter_to_trackers`` determines
			// whether the IP filter applies to trackers as well as peers. If this
			// is set to false, trackers are exempt from the IP filter (if there
			// is one). If no IP filter is set, this setting is irrelevant.
			apply_ip_filter_to_trackers,

#if TORRENT_ABI_VERSION == 1
			// ``use_disk_read_ahead`` if true will attempt to
			// optimize disk reads by giving the operating system heads up of disk
			// read requests as they are queued in the disk job queue.
			use_disk_read_ahead TORRENT_DEPRECATED_ENUM,
#else
			deprecated_use_disk_read_ahead,
#endif

#if TORRENT_ABI_VERSION == 1
			// ``lock_files`` determines whether or not to lock files which
			// libtorrent is downloading to or seeding from. This is implemented
			// using ``fcntl(F_SETLK)`` on Unix systems and by not passing in
			// ``SHARE_READ`` and ``SHARE_WRITE`` on windows. This might prevent
			// 3rd party processes from corrupting the files under libtorrent's
			// feet.
			lock_files TORRENT_DEPRECATED_ENUM,
#else
			deprecated_lock_files,
#endif

#if TORRENT_ABI_VERSION == 1
			// ``contiguous_recv_buffer`` determines whether or not libtorrent
			// should receive data from peers into a contiguous intermediate
			// buffer, to then copy blocks into disk buffers from, or to make many
			// smaller calls to ``read()``, each time passing in the specific
			// buffer the data belongs in. When downloading at high rates, the
			// latter may save some time copying data. When seeding at high rates,
			// all incoming traffic consists of a very large number of tiny
			// packets, and enabling ``contiguous_recv_buffer`` will provide
			// higher performance. When this is enabled, it will only be used when
			// seeding to peers, since that's when it provides performance
			// improvements.
			contiguous_recv_buffer TORRENT_DEPRECATED_ENUM,
#else
			deprecated_contiguous_recv_buffer,
#endif

			// when true, web seeds sending bad data will be banned
			ban_web_seeds,

			// when set to false, the ``write_cache_line_size`` will apply across
			// piece boundaries. this is a bad idea unless the piece picker also
			// is configured to have an affinity to pick pieces belonging to the
			// same write cache line as is configured in the disk cache.
			allow_partial_disk_writes,

#if TORRENT_ABI_VERSION == 1
			// If true, disables any communication that's not going over a proxy.
			// Enabling this requires a proxy to be configured as well, see
			// proxy_type and proxy_hostname settings. The listen sockets are
			// closed, and incoming connections will only be accepted through a
			// SOCKS5 or I2P proxy (if a peer proxy is set up and is run on the
			// same machine as the tracker proxy).
			force_proxy TORRENT_DEPRECATED_ENUM,
#else
			deprecated_force_proxy,
#endif

			// if false, prevents libtorrent to advertise share-mode support
			support_share_mode,

#if TORRENT_ABI_VERSION <= 2
			// support for BEP 30 merkle torrents has been removed

			// if this is false, don't advertise support for the Tribler merkle
			// tree piece message
			support_merkle_torrents TORRENT_DEPRECATED_ENUM,
#else
			deprecated_support_merkle_torrents,
#endif

			// if this is true, the number of redundant bytes is sent to the
			// tracker
			report_redundant_bytes,

			// if this is true, libtorrent will fall back to listening on a port
			// chosen by the operating system (i.e. binding to port 0). If a
			// failure is preferred, set this to false.
			listen_system_port_fallback,

#if TORRENT_ABI_VERSION == 1
			// ``use_disk_cache_pool`` enables using a pool allocator for disk
			// cache blocks. Enabling it makes the cache perform better at high
			// throughput. It also makes the cache less likely and slower at
			// returning memory back to the system, once allocated.
			use_disk_cache_pool TORRENT_DEPRECATED_ENUM,
#else
			deprecated_use_disk_cache_pool,
#endif

			// when this is true, and incoming encrypted connections are enabled,
			// &supportcrypt=1 is included in http tracker announces
			announce_crypto_support,

			// Starts and stops the UPnP service. When started, the listen port
			// and the DHT port are attempted to be forwarded on local UPnP router
			// devices.
			//
			// The upnp object returned by ``start_upnp()`` can be used to add and
			// remove arbitrary port mappings. Mapping status is returned through
			// the portmap_alert and the portmap_error_alert. The object will be
			// valid until ``stop_upnp()`` is called. See upnp-and-nat-pmp_.
			enable_upnp,

			// Starts and stops the NAT-PMP service. When started, the listen port
			// and the DHT port are attempted to be forwarded on the router
			// through NAT-PMP.
			//
			// The natpmp object returned by ``start_natpmp()`` can be used to add
			// and remove arbitrary port mappings. Mapping status is returned
			// through the portmap_alert and the portmap_error_alert. The object
			// will be valid until ``stop_natpmp()`` is called. See
			// upnp-and-nat-pmp_.
			enable_natpmp,

			// Starts and stops Local Service Discovery. This service will
			// broadcast the info-hashes of all the non-private torrents on the
			// local network to look for peers on the same swarm within multicast
			// reach.
			enable_lsd,

			// starts the dht node and makes the trackerless service available to
			// torrents.
			enable_dht,

			// if the allowed encryption level is both, setting this to true will
			// prefer RC4 if both methods are offered, plain text otherwise
			prefer_rc4,

			// if true, hostname lookups are done via the configured proxy (if
			// any). This is only supported by SOCKS5 and HTTP.
			proxy_hostnames,

			// if true, peer connections are made (and accepted) over the
			// configured proxy, if any. Web seeds as well as regular bittorrent
			// peer connections are considered "peer connections". Anything
			// transporting actual torrent payload (trackers and DHT traffic are
			// not considered peer connections).
			proxy_peer_connections,

			// if this setting is true, torrents with a very high availability of
			// pieces (and seeds) are downloaded sequentially. This is more
			// efficient for the disk I/O. With many seeds, the download order is
			// unlikely to matter anyway
			auto_sequential,

			// if true, tracker connections are made over the configured proxy, if
			// any.
			proxy_tracker_connections,

			// Starts and stops the internal IP table route changes notifier.
			//
			// The current implementation supports multiple platforms, and it is
			// recommended to have it enable, but you may want to disable it if
			// it's supported but unreliable, or if you have a better way to
			// detect the changes. In the later case, you should manually call
			// ``session_handle::reopen_network_sockets`` to ensure network
			// changes are taken in consideration.
			enable_ip_notifier,

			// when this is true, nodes whose IDs are derived from their source
			// IP according to `BEP 42`_ are preferred in the routing table.
			dht_prefer_verified_node_ids,

			// determines if the routing table entries should restrict entries to one
			// per IP. This defaults to true, which helps mitigate some attacks on
			// the DHT. It prevents adding multiple nodes with IPs with a very close
			// CIDR distance.
			//
			// when set, nodes whose IP address that's in the same /24 (or /64 for
			// IPv6) range in the same routing table bucket. This is an attempt to
			// mitigate node ID spoofing attacks also restrict any IP to only have a
			// single entry in the whole routing table
			dht_restrict_routing_ips,

			// determines if DHT searches should prevent adding nodes with IPs with
			// very close CIDR distance. This also defaults to true and helps
			// mitigate certain attacks on the DHT.
			dht_restrict_search_ips,

			// makes the first buckets in the DHT routing table fit 128, 64, 32 and
			// 16 nodes respectively, as opposed to the standard size of 8. All other
			// buckets have size 8 still.
			dht_extended_routing_table,

			// slightly changes the lookup behavior in terms of how many outstanding
			// requests we keep. Instead of having branch factor be a hard limit, we
			// always keep *branch factor* outstanding requests to the closest nodes.
			// i.e. every time we get results back with closer nodes, we query them
			// right away. It lowers the lookup times at the cost of more outstanding
			// queries.
			dht_aggressive_lookups,

			// when set, perform lookups in a way that is slightly more expensive,
			// but which minimizes the amount of information leaked about you.
			dht_privacy_lookups,

			// when set, node's whose IDs that are not correctly generated based on
			// its external IP are ignored. When a query arrives from such node, an
			// error message is returned with a message saying "invalid node ID".
			dht_enforce_node_id,

			// ignore DHT messages from parts of the internet we wouldn't expect to
			// see any traffic from
			dht_ignore_dark_internet,

			// when set, the other nodes won't keep this node in their routing
			// tables, it's meant for low-power and/or ephemeral devices that
			// cannot support the DHT, it is also useful for mobile devices which
			// are sensitive to network traffic and battery life.
			// this node no longer responds to 'query' messages, and will place a
			// 'ro' key (value = 1) in the top-level message dictionary of outgoing
			// query messages.
			dht_read_only,

			// when this is true, create an affinity for downloading 4 MiB extents
			// of adjacent pieces. This is an attempt to achieve better disk I/O
			// throughput by downloading larger extents of bytes, for torrents with
			// small piece sizes
			piece_extent_affinity,

			// when set to true, the certificate of HTTPS trackers and HTTPS web
			// seeds will be validated against the system's certificate store
			// (as defined by OpenSSL). If the system does not have a
			// certificate store, this option may have to be disabled in order
			// to get trackers and web seeds to work).
			validate_https_trackers,

			// when enabled, tracker and web seed requests are subject to
			// certain restrictions.
			//
			// An HTTP(s) tracker requests to localhost (loopback)
			// must have the request path start with "/announce". This is the
			// conventional bittorrent tracker request. Any other HTTP(S)
			// tracker request to loopback will be rejected. This applies to
			// trackers that redirect to loopback as well.
			//
			// Web seeds that end up on the client's local network (i.e. in a
			// private IP address range) may not include query string arguments.
			// This applies to web seeds redirecting to the local network as
			// well.
			ssrf_mitigation,

			// when disabled, any tracker or web seed with an IDNA hostname
			// (internationalized domain name) is ignored. This is a security
			// precaution to avoid various unicode encoding attacks that might
			// happen at the application level.
			allow_idna,

			// when set to true, enables the attempt to use SetFileValidData()
			// to pre-allocate disk space. This system call will only work when
			// running with Administrator privileges on Windows, and so this
			// setting is only relevant in that scenario. Using
			// SetFileValidData() poses a security risk, as it may reveal
			// previously deleted information from the disk.
			enable_set_file_valid_data,

			max_bool_setting_internal
		};

		// hidden
		enum int_types
		{
			// ``tracker_completion_timeout`` is the number of seconds the tracker
			// connection will wait from when it sent the request until it
			// considers the tracker to have timed-out.
			tracker_completion_timeout = int_type_base,

			// ``tracker_receive_timeout`` is the number of seconds to wait to
			// receive any data from the tracker. If no data is received for this
			// number of seconds, the tracker will be considered as having timed
			// out. If a tracker is down, this is the kind of timeout that will
			// occur.
			tracker_receive_timeout,

			// ``stop_tracker_timeout`` is the number of seconds to wait when
			// sending a stopped message before considering a tracker to have
			// timed out. This is usually shorter, to make the client quit faster.
			// If the value is set to 0, the connections to trackers with the
			// stopped event are suppressed.
			stop_tracker_timeout,

			// this is the maximum number of bytes in a tracker response. If a
			// response size passes this number of bytes it will be rejected and
			// the connection will be closed. On gzipped responses this size is
			// measured on the uncompressed data. So, if you get 20 bytes of gzip
			// response that'll expand to 2 megabytes, it will be interrupted
			// before the entire response has been uncompressed (assuming the
			// limit is lower than 2 MiB).
			tracker_maximum_response_length,

			// the number of seconds from a request is sent until it times out if
			// no piece response is returned.
			piece_timeout,

			// the number of seconds one block (16 kiB) is expected to be received
			// within. If it's not, the block is requested from a different peer
			request_timeout,

			// the length of the request queue given in the number of seconds it
			// should take for the other end to send all the pieces. i.e. the
			// actual number of requests depends on the download rate and this
			// number.
			request_queue_time,

			// the number of outstanding block requests a peer is allowed to queue
			// up in the client. If a peer sends more requests than this (before
			// the first one has been sent) the last request will be dropped. the
			// higher this is, the faster upload speeds the client can get to a
			// single peer.
			max_allowed_in_request_queue,

			// ``max_out_request_queue`` is the maximum number of outstanding
			// requests to send to a peer. This limit takes precedence over
			// ``request_queue_time``. i.e. no matter the download speed, the
			// number of outstanding requests will never exceed this limit.
			max_out_request_queue,

			// if a whole piece can be downloaded in this number of seconds, or
			// less, the peer_connection will prefer to request whole pieces at a
			// time from this peer. The benefit of this is to better utilize disk
			// caches by doing localized accesses and also to make it easier to
			// identify bad peers if a piece fails the hash check.
			whole_pieces_threshold,

			// ``peer_timeout`` is the number of seconds the peer connection
			// should wait (for any activity on the peer connection) before
			// closing it due to time out. 120 seconds is
			// specified in the protocol specification. After half
			// the time out, a keep alive message is sent.
			peer_timeout,

			// same as peer_timeout, but only applies to url-seeds. this is
			// usually set lower, because web servers are expected to be more
			// reliable.
			urlseed_timeout,

			// controls the pipelining size of url and http seeds. i.e. the number of HTTP
			// request to keep outstanding before waiting for the first one to
			// complete. It's common for web servers to limit this to a relatively
			// low number, like 5
			urlseed_pipeline_size,

			// number of seconds until a new retry of a url-seed takes place.
			// Default retry value for http-seeds that don't provide
			// a valid ``retry-after`` header.
			urlseed_wait_retry,

			// sets the upper limit on the total number of files this session will
			// keep open. The reason why files are left open at all is that some
			// anti virus software hooks on every file close, and scans the file
			// for viruses. deferring the closing of the files will be the
			// difference between a usable system and a completely hogged down
			// system. Most operating systems also has a limit on the total number
			// of file descriptors a process may have open.
			file_pool_size,

			// ``max_failcount`` is the maximum times we try to
			// connect to a peer before stop connecting again. If a
			// peer succeeds, the failure counter is reset. If a
			// peer is retrieved from a peer source (other than DHT)
			// the failcount is decremented by one, allowing another
			// try.
			max_failcount,

			// the number of seconds to wait to reconnect to a peer. this time is
			// multiplied with the failcount.
			min_reconnect_time,

			// ``peer_connect_timeout`` the number of seconds to wait after a
			// connection attempt is initiated to a peer until it is considered as
			// having timed out. This setting is especially important in case the
			// number of half-open connections are limited, since stale half-open
			// connection may delay the connection of other peers considerably.
			peer_connect_timeout,

			// ``connection_speed`` is the number of connection attempts that are
			// made per second. If a number < 0 is specified, it will default to
			// 200 connections per second. If 0 is specified, it means don't make
			// outgoing connections at all.
			connection_speed,

			// if a peer is uninteresting and uninterested for longer than this
			// number of seconds, it will be disconnected.
			inactivity_timeout,

			// ``unchoke_interval`` is the number of seconds between
			// chokes/unchokes. On this interval, peers are re-evaluated for being
			// choked/unchoked. This is defined as 30 seconds in the protocol, and
			// it should be significantly longer than what it takes for TCP to
			// ramp up to it's max rate.
			unchoke_interval,

			// ``optimistic_unchoke_interval`` is the number of seconds between
			// each *optimistic* unchoke. On this timer, the currently
			// optimistically unchoked peer will change.
			optimistic_unchoke_interval,

			// ``num_want`` is the number of peers we want from each tracker
			// request. It defines what is sent as the ``&num_want=`` parameter to
			// the tracker.
			num_want,

			// ``initial_picker_threshold`` specifies the number of pieces we need
			// before we switch to rarest first picking. The first
			// ``initial_picker_threshold`` pieces in any torrent are picked at random
			// , the following pieces are picked in rarest first order.
			initial_picker_threshold,

			// the number of allowed pieces to send to peers that supports the
			// fast extensions
			allowed_fast_set_size,

			// ``suggest_mode`` controls whether or not libtorrent will send out
			// suggest messages to create a bias of its peers to request certain
			// pieces. The modes are:
			//
			// * ``no_piece_suggestions`` which will not send out suggest messages.
			// * ``suggest_read_cache`` which will send out suggest messages for
			//   the most recent pieces that are in the read cache.
			suggest_mode,

			// ``max_queued_disk_bytes`` is the maximum number of bytes, to
			// be written to disk, that can wait in the disk I/O thread queue.
			// This queue is only for waiting for the disk I/O thread to receive
			// the job and either write it to disk or insert it in the write
			// cache. When this limit is reached, the peer connections will stop
			// reading data from their sockets, until the disk thread catches up.
			// Setting this too low will severely limit your download rate.
			max_queued_disk_bytes,

			// the number of seconds to wait for a handshake response from a peer.
			// If no response is received within this time, the peer is
			// disconnected.
			handshake_timeout,

			// ``send_buffer_low_watermark`` the minimum send buffer target size
			// (send buffer includes bytes pending being read from disk). For good
			// and snappy seeding performance, set this fairly high, to at least
			// fit a few blocks. This is essentially the initial window size which
			// will determine how fast we can ramp up the send rate
			//
			// if the send buffer has fewer bytes than ``send_buffer_watermark``,
			// we'll read another 16 kiB block onto it. If set too small, upload
			// rate capacity will suffer. If set too high, memory will be wasted.
			// The actual watermark may be lower than this in case the upload rate
			// is low, this is the upper limit.
			//
			// the current upload rate to a peer is multiplied by this factor to
			// get the send buffer watermark. The factor is specified as a
			// percentage. i.e. 50 -> 0.5 This product is clamped to the
			// ``send_buffer_watermark`` setting to not exceed the max. For high
			// speed upload, this should be set to a greater value than 100. For
			// high capacity connections, setting this higher can improve upload
			// performance and disk throughput. Setting it too high may waste RAM
			// and create a bias towards read jobs over write jobs.
			send_buffer_low_watermark,
			send_buffer_watermark,
			send_buffer_watermark_factor,

			// ``choking_algorithm`` specifies which algorithm to use to determine
			// how many peers to unchoke. The unchoking algorithm for
			// downloading torrents is always "tit-for-tat", i.e. the peers we
			// download the fastest from are unchoked.
			//
			// The options for choking algorithms are defined in the
			// choking_algorithm_t enum.
			//
			// ``seed_choking_algorithm`` controls the seeding unchoke behavior.
			// i.e. How we select which peers to unchoke for seeding torrents.
			// Since a seeding torrent isn't downloading anything, the
			// tit-for-tat mechanism cannot be used. The available options are
			// defined in the seed_choking_algorithm_t enum.
			choking_algorithm,
			seed_choking_algorithm,

#if TORRENT_ABI_VERSION == 1
			// ``cache_size`` is the disk write and read cache. It is specified
			// in units of 16 kiB blocks. Buffers that are part of a peer's send
			// or receive buffer also count against this limit. Send and receive
			// buffers will never be denied to be allocated, but they will cause
			// the actual cached blocks to be flushed or evicted. If this is set
			// to -1, the cache size is automatically set based on the amount of
			// physical RAM on the machine. If the amount of physical RAM cannot
			// be determined, it's set to 1024 (= 16 MiB).
			//
			// On 32 bit builds, the effective cache size will be limited to 3/4 of
			// 2 GiB to avoid exceeding the virtual address space limit.
			cache_size TORRENT_DEPRECATED_ENUM,

			// Disk buffers are allocated using a pool allocator, the number of
			// blocks that are allocated at a time when the pool needs to grow can
			// be specified in ``cache_buffer_chunk_size``. Lower numbers saves
			// memory at the expense of more heap allocations. If it is set to 0,
			// the effective chunk size is proportional to the total cache size,
			// attempting to strike a good balance between performance and memory
			// usage. It defaults to 0.
			cache_buffer_chunk_size TORRENT_DEPRECATED_ENUM,

			// ``cache_expiry`` is the number of seconds
			// from the last cached write to a piece in the write cache, to when
			// it's forcefully flushed to disk.
			cache_expiry TORRENT_DEPRECATED_ENUM,
#else
			deprecated_cache_size,
			deprecated_cache_buffer_chunk_size,
			deprecated_cache_expiry,
#endif

			// determines how files are opened when they're in read only mode
			// versus read and write mode. The options are:
			//
			// enable_os_cache
			//   Files are opened normally, with the OS caching reads and writes.
			// disable_os_cache
			//   This opens all files in no-cache mode. This corresponds to the
			//   OS not letting blocks for the files linger in the cache. This
			//   makes sense in order to avoid the bittorrent client to
			//   potentially evict all other processes' cache by simply handling
			//   high throughput and large files. If libtorrent's read cache is
			//   disabled, enabling this may reduce performance.
			//
			// One reason to disable caching is that it may help the operating
			// system from growing its file cache indefinitely.
			disk_io_write_mode,
			disk_io_read_mode,

			// this is the first port to use for binding outgoing connections to.
			// This is useful for users that have routers that allow QoS settings
			// based on local port. when binding outgoing connections to specific
			// ports, ``num_outgoing_ports`` is the size of the range. It should
			// be more than a few
			//
			// .. warning:: setting outgoing ports will limit the ability to keep
			//    multiple connections to the same client, even for different
			//    torrents. It is not recommended to change this setting. Its main
			//    purpose is to use as an escape hatch for cheap routers with QoS
			//    capability but can only classify flows based on port numbers.
			//
			// It is a range instead of a single port because of the problems with
			// failing to reconnect to peers if a previous socket to that peer and
			// port is in ``TIME_WAIT`` state.
			outgoing_port,
			num_outgoing_ports,

			// ``peer_tos`` determines the TOS byte set in the IP header of every
			// packet sent to peers (including web seeds). ``0x0`` means no marking,
			// ``0x20`` represents the *QBone scavenger service*. For more
			// details, see QBSS_.
			//
			// .. _`QBSS`: http://qbone.internet2.edu/qbss/
			peer_tos,

			// for auto managed torrents, these are the limits they are subject
			// to. If there are too many torrents some of the auto managed ones
			// will be paused until some slots free up. ``active_downloads`` and
			// ``active_seeds`` controls how many active seeding and downloading
			// torrents the queuing mechanism allows. The target number of active
			// torrents is ``min(active_downloads + active_seeds, active_limit)``.
			// ``active_downloads`` and ``active_seeds`` are upper limits on the
			// number of downloading torrents and seeding torrents respectively.
			// Setting the value to -1 means unlimited.
			//
			// For example if there are 10 seeding torrents and 10 downloading
			// torrents, and ``active_downloads`` is 4 and ``active_seeds`` is 4,
			// there will be 4 seeds active and 4 downloading torrents. If the
			// settings are ``active_downloads`` = 2 and ``active_seeds`` = 4,
			// then there will be 2 downloading torrents and 4 seeding torrents
			// active. Torrents that are not auto managed are not counted against
			// these limits.
			//
			// ``active_checking`` is the limit of number of simultaneous checking
			// torrents.
			//
			// ``active_limit`` is a hard limit on the number of active (auto
			// managed) torrents. This limit also applies to slow torrents.
			//
			// ``active_dht_limit`` is the max number of torrents to announce to
			// the DHT.
			//
			// ``active_tracker_limit`` is the max number of torrents to announce
			// to their trackers.
			//
			// ``active_lsd_limit`` is the max number of torrents to announce to
			// the local network over the local service discovery protocol.
			//
			// You can have more torrents *active*, even though they are not
			// announced to the DHT, lsd or their tracker. If some peer knows
			// about you for any reason and tries to connect, it will still be
			// accepted, unless the torrent is paused, which means it won't accept
			// any connections.
			active_downloads,
			active_seeds,
			active_checking,
			active_dht_limit,
			active_tracker_limit,
			active_lsd_limit,
			active_limit,

#if TORRENT_ABI_VERSION == 1
			// ``active_loaded_limit`` is the number of torrents that are allowed
			// to be *loaded* at any given time. Note that a torrent can be active
			// even though it's not loaded. If an unloaded torrents finds a peer
			// that wants to access it, the torrent will be loaded on demand,
			// using a user-supplied callback function. If the feature of
			// unloading torrents is not enabled, this setting have no effect. If
			// this limit is set to 0, it means unlimited. For more information,
			// see dynamic-loading-of-torrent-files_.
			active_loaded_limit TORRENT_DEPRECATED_ENUM,
#else
			deprecated_active_loaded_limit,
#endif

			// ``auto_manage_interval`` is the number of seconds between the
			// torrent queue is updated, and rotated.
			auto_manage_interval,

			// this is the limit on the time a torrent has been an active seed
			// (specified in seconds) before it is considered having met the seed
			// limit criteria. See queuing_.
			seed_time_limit,

			// ``auto_scrape_interval`` is the number of seconds between scrapes
			// of queued torrents (auto managed and paused torrents). Auto managed
			// torrents that are paused, are scraped regularly in order to keep
			// track of their downloader/seed ratio. This ratio is used to
			// determine which torrents to seed and which to pause.
			//
			// ``auto_scrape_min_interval`` is the minimum number of seconds
			// between any automatic scrape (regardless of torrent). In case there
			// are a large number of paused auto managed torrents, this puts a
			// limit on how often a scrape request is sent.
			auto_scrape_interval,
			auto_scrape_min_interval,

			// ``max_peerlist_size`` is the maximum number of peers in the list of
			// known peers. These peers are not necessarily connected, so this
			// number should be much greater than the maximum number of connected
			// peers. Peers are evicted from the cache when the list grows passed
			// 90% of this limit, and once the size hits the limit, peers are no
			// longer added to the list. If this limit is set to 0, there is no
			// limit on how many peers we'll keep in the peer list.
			//
			// ``max_paused_peerlist_size`` is the max peer list size used for
			// torrents that are paused. This can be used to save memory for paused
			// torrents, since it's not as important for them to keep a large peer
			// list.
			max_peerlist_size,
			max_paused_peerlist_size,

			// this is the minimum allowed announce interval for a tracker. This
			// is specified in seconds and is used as a sanity check on what is
			// returned from a tracker. It mitigates hammering mis-configured
			// trackers.
			min_announce_interval,

			// this is the number of seconds a torrent is considered active after
			// it was started, regardless of upload and download speed. This is so
			// that newly started torrents are not considered inactive until they
			// have a fair chance to start downloading.
			auto_manage_startup,

			// ``seeding_piece_quota`` is the number of pieces to send to a peer,
			// when seeding, before rotating in another peer to the unchoke set.
			seeding_piece_quota,

			// ``max_rejects`` is the number of piece requests we will reject in a
			// row while a peer is choked before the peer is considered abusive
			// and is disconnected.
			max_rejects,

			// specifies the buffer sizes set on peer sockets. 0 means the OS
			// default (i.e. don't change the buffer sizes).
			// The socket buffer sizes are changed using setsockopt() with
			// SOL_SOCKET/SO_RCVBUF and SO_SNDBUFFER.
			recv_socket_buffer_size,
			send_socket_buffer_size,

			// the max number of bytes a single peer connection's receive buffer is
			// allowed to grow to.
			max_peer_recv_buffer_size,

#if TORRENT_ABI_VERSION == 1
			// ``file_checks_delay_per_block`` is the number of milliseconds to
			// sleep in between disk read operations when checking torrents.
			// This can be set to higher numbers to slow down the
			// rate at which data is read from the disk while checking. This may
			// be useful for background tasks that doesn't matter if they take a
			// bit longer, as long as they leave disk I/O time for other
			// processes.
			file_checks_delay_per_block TORRENT_DEPRECATED_ENUM,
#else
			deprecated_file_checks_delay_per_block,
#endif

			// ``read_cache_line_size`` is the number of blocks to read into the
			// read cache when a read cache miss occurs. Setting this to 0 is
			// essentially the same thing as disabling read cache. The number of
			// blocks read into the read cache is always capped by the piece
			// boundary.
			//
			// When a piece in the write cache has ``write_cache_line_size``
			// contiguous blocks in it, they will be flushed. Setting this to 1
			// effectively disables the write cache.
			read_cache_line_size,
			write_cache_line_size,

			// ``optimistic_disk_retry`` is the number of seconds from a disk
			// write errors occur on a torrent until libtorrent will take it out
			// of the upload mode, to test if the error condition has been fixed.
			//
			// libtorrent will only do this automatically for auto managed
			// torrents.
			//
			// You can explicitly take a torrent out of upload only mode using
			// set_upload_mode().
			optimistic_disk_retry,

			// ``max_suggest_pieces`` is the max number of suggested piece indices
			// received from a peer that's remembered. If a peer floods suggest
			// messages, this limit prevents libtorrent from using too much RAM.
			max_suggest_pieces,

			// ``local_service_announce_interval`` is the time between local
			// network announces for a torrent.
			// This interval is specified in seconds.
			local_service_announce_interval,

			// ``dht_announce_interval`` is the number of seconds between
			// announcing torrents to the distributed hash table (DHT).
			dht_announce_interval,

			// ``udp_tracker_token_expiry`` is the number of seconds libtorrent
			// will keep UDP tracker connection tokens around for. This is
			// specified to be 60 seconds. The higher this
			// value is, the fewer packets have to be sent to the UDP tracker. In
			// order for higher values to work, the tracker needs to be configured
			// to match the expiration time for tokens.
			udp_tracker_token_expiry,

#if TORRENT_ABI_VERSION == 1
			// ``default_cache_min_age`` is the minimum number of seconds any read
			// cache line is kept in the cache. This
			// may be greater if ``guided_read_cache`` is enabled. Having a lower
			// bound on the time a cache line stays in the cache is an attempt
			// to avoid swapping the same pieces in and out of the cache in case
			// there is a shortage of spare cache space.
			default_cache_min_age TORRENT_DEPRECATED_ENUM,
#else
			deprecated_default_cache_min_age,
#endif

			// ``num_optimistic_unchoke_slots`` is the number of optimistic
			// unchoke slots to use.
			// Having a higher number of optimistic unchoke slots mean you will
			// find the good peers faster but with the trade-off to use up more
			// bandwidth. 0 means automatic, where libtorrent opens up 20% of your
			// allowed upload slots as optimistic unchoke slots.
			num_optimistic_unchoke_slots,

#if TORRENT_ABI_VERSION == 1
			// ``default_est_reciprocation_rate`` is the assumed reciprocation
			// rate from peers when using the BitTyrant choker. If set too high,
			// you will over-estimate your peers and be
			// more altruistic while finding the true reciprocation rate, if it's
			// set too low, you'll be too stingy and waste finding the true
			// reciprocation rate.
			//
			// ``increase_est_reciprocation_rate`` specifies how many percent the
			// estimated reciprocation rate should be increased by each unchoke
			// interval a peer is still choking us back.
			// This only applies to the BitTyrant choker.
			//
			// ``decrease_est_reciprocation_rate`` specifies how many percent the
			// estimated reciprocation rate should be decreased by each unchoke
			// interval a peer unchokes us. This only applies
			// to the BitTyrant choker.
			default_est_reciprocation_rate TORRENT_DEPRECATED_ENUM,
			increase_est_reciprocation_rate TORRENT_DEPRECATED_ENUM,
			decrease_est_reciprocation_rate TORRENT_DEPRECATED_ENUM,
#else
			deprecated_default_est_reciprocation_rate,
			deprecated_increase_est_reciprocation_rate,
			deprecated_decrease_est_reciprocation_rate,
#endif

			// the max number of peers we accept from pex messages from a single
			// peer. this limits the number of concurrent peers any of our peers
			// claims to be connected to. If they claim to be connected to more
			// than this, we'll ignore any peer that exceeds this limit
			max_pex_peers,

			// ``tick_interval`` specifies the number of milliseconds between
			// internal ticks. This is the frequency with which bandwidth quota is
			// distributed to peers. It should not be more than one second (i.e.
			// 1000 ms). Setting this to a low value (around 100) means higher
			// resolution bandwidth quota distribution, setting it to a higher
			// value saves CPU cycles.
			tick_interval,

			// ``share_mode_target`` specifies the target share ratio for share
			// mode torrents. If set to 3, we'll try to upload 3
			// times as much as we download. Setting this very high, will make it
			// very conservative and you might end up not downloading anything
			// ever (and not affecting your share ratio). It does not make any
			// sense to set this any lower than 2. For instance, if only 3 peers
			// need to download the rarest piece, it's impossible to download a
			// single piece and upload it more than 3 times. If the
			// share_mode_target is set to more than 3, nothing is downloaded.
			share_mode_target,

			// ``upload_rate_limit`` and ``download_rate_limit`` sets
			// the session-global limits of upload and download rate limits, in
			// bytes per second. By default peers on the local network are not rate
			// limited.
			//
			// A value of 0 means unlimited.
			//
			// For fine grained control over rate limits, including making them apply
			// to local peers, see peer-classes_.
			upload_rate_limit,
			download_rate_limit,
#if TORRENT_ABI_VERSION == 1
			local_upload_rate_limit TORRENT_DEPRECATED_ENUM,
			local_download_rate_limit TORRENT_DEPRECATED_ENUM,
#else
			deprecated_local_upload_rate_limit,
			deprecated_local_download_rate_limit,
#endif

			// the number of bytes per second (on average) the DHT is allowed to send.
			// If the incoming requests causes to many bytes to be sent in responses,
			// incoming requests will be dropped until the quota has been replenished.
			dht_upload_rate_limit,

			// ``unchoke_slots_limit`` is the max number of unchoked peers in the
			// session. The number of unchoke slots may be ignored depending on
			// what ``choking_algorithm`` is set to. Setting this limit to -1
			// means unlimited, i.e. all peers will always be unchoked.
			unchoke_slots_limit,

#if TORRENT_ABI_VERSION == 1
			// ``half_open_limit`` sets the maximum number of half-open
			// connections libtorrent will have when connecting to peers. A
			// half-open connection is one where connect() has been called, but
			// the connection still hasn't been established (nor failed). Windows
			// XP Service Pack 2 sets a default, system wide, limit of the number
			// of half-open connections to 10. So, this limit can be used to work
			// nicer together with other network applications on that system. The
			// default is to have no limit, and passing -1 as the limit, means to
			// have no limit. When limiting the number of simultaneous connection
			// attempts, peers will be put in a queue waiting for their turn to
			// get connected.
			half_open_limit TORRENT_DEPRECATED_ENUM,
#else
			deprecated_half_open_limit,
#endif

			// ``connections_limit`` sets a global limit on the number of
			// connections opened. The number of connections is set to a hard
			// minimum of at least two per torrent, so if you set a too low
			// connections limit, and open too many torrents, the limit will not
			// be met.
			connections_limit,

			// ``connections_slack`` is the number of incoming connections
			// exceeding the connection limit to accept in order to potentially
			// replace existing ones.
			connections_slack,

			// ``utp_target_delay`` is the target delay for uTP sockets in
			// milliseconds. A high value will make uTP connections more
			// aggressive and cause longer queues in the upload bottleneck. It
			// cannot be too low, since the noise in the measurements would cause
			// it to send too slow.
			// ``utp_gain_factor`` is the number of bytes the uTP congestion
			// window can increase at the most in one RTT.
			// If this is set too high, the congestion controller reacts
			// too hard to noise and will not be stable, if it's set too low, it
			// will react slow to congestion and not back off as fast.
			//
			// ``utp_min_timeout`` is the shortest allowed uTP socket timeout,
			// specified in milliseconds. The
			// timeout depends on the RTT of the connection, but is never smaller
			// than this value. A connection times out when every packet in a
			// window is lost, or when a packet is lost twice in a row (i.e. the
			// resent packet is lost as well).
			//
			// The shorter the timeout is, the faster the connection will recover
			// from this situation, assuming the RTT is low enough.
			// ``utp_syn_resends`` is the number of SYN packets that are sent (and
			// timed out) before giving up and closing the socket.
			// ``utp_num_resends`` is the number of times a packet is sent (and
			// lost or timed out) before giving up and closing the connection.
			// ``utp_connect_timeout`` is the number of milliseconds of timeout
			// for the initial SYN packet for uTP connections. For each timed out
			// packet (in a row), the timeout is doubled. ``utp_loss_multiplier``
			// controls how the congestion window is changed when a packet loss is
			// experienced. It's specified as a percentage multiplier for
			// ``cwnd``. Do not change this value unless you know what you're doing.
			// Never set it higher than 100.
			utp_target_delay,
			utp_gain_factor,
			utp_min_timeout,
			utp_syn_resends,
			utp_fin_resends,
			utp_num_resends,
			utp_connect_timeout,
#if TORRENT_ABI_VERSION == 1
			utp_delayed_ack TORRENT_DEPRECATED_ENUM,
#else
			deprecated_utp_delayed_ack,
#endif
			utp_loss_multiplier,

			// The ``mixed_mode_algorithm`` determines how to treat TCP
			// connections when there are uTP connections. Since uTP is designed
			// to yield to TCP, there's an inherent problem when using swarms that
			// have both TCP and uTP connections. If nothing is done, uTP
			// connections would often be starved out for bandwidth by the TCP
			// connections. This mode is ``prefer_tcp``. The ``peer_proportional``
			// mode simply looks at the current throughput and rate limits all TCP
			// connections to their proportional share based on how many of the
			// connections are TCP. This works best if uTP connections are not
			// rate limited by the global rate limiter (which they aren't by
			// default).
			mixed_mode_algorithm,

			// ``listen_queue_size`` is the value passed in to listen() for the
			// listen socket. It is the number of outstanding incoming connections
			// to queue up while we're not actively waiting for a connection to be
			// accepted. 5 should be sufficient for any
			// normal client. If this is a high performance server which expects
			// to receive a lot of connections, or used in a simulator or test, it
			// might make sense to raise this number. It will not take affect
			// until the ``listen_interfaces`` settings is updated.
			listen_queue_size,

			// ``torrent_connect_boost`` is the number of peers to try to connect
			// to immediately when the first tracker response is received for a
			// torrent. This is a boost to given to new torrents to accelerate
			// them starting up. The normal connect scheduler is run once every
			// second, this allows peers to be connected immediately instead of
			// waiting for the session tick to trigger connections.
			// This may not be set higher than 255.
			torrent_connect_boost,

			// ``alert_queue_size`` is the maximum number of alerts queued up
			// internally. If alerts are not popped, the queue will eventually
			// fill up to this level. Once the alert queue is full, additional
			// alerts will be dropped, and not delivered to the client. Once the
			// client drains the queue, new alerts may be delivered again. In order
			// to know that alerts have been dropped, see
			// session_handle::dropped_alerts().
			alert_queue_size,

			// ``max_metadata_size`` is the maximum allowed size (in bytes) to be
			// received by the metadata extension, i.e. magnet links.
			max_metadata_size,

			// ``hashing_threads`` is the number of disk I/O threads to use for
			// piece hash verification. These threads are *in addition* to the
			// regular disk I/O threads specified by settings_pack::aio_threads.
			// The hasher threads do not only compute hashes, but also perform
			// the read from disk. On storage optimal for sequential access,
			// such as hard drives, this setting should probably be set to 1.
			hashing_threads,

			// the number of blocks to keep outstanding at any given time when
			// checking torrents. Higher numbers give faster re-checks but uses
			// more memory. Specified in number of 16 kiB blocks
			checking_mem_usage,

			// if set to > 0, pieces will be announced to other peers before they
			// are fully downloaded (and before they are hash checked). The
			// intention is to gain 1.5 potential round trip times per downloaded
			// piece. When non-zero, this indicates how many milliseconds in
			// advance pieces should be announced, before they are expected to be
			// completed.
			predictive_piece_announce,

			// for some aio back-ends, ``aio_threads`` specifies the number of
			// io-threads to use.
			aio_threads,

#if TORRENT_ABI_VERSION == 1
			// for some aio back-ends, ``aio_max`` specifies the max number of
			// outstanding jobs.
			aio_max TORRENT_DEPRECATED_ENUM,

			// .. note:: This is not implemented
			//
			// ``network_threads`` is the number of threads to use to call
			// ``async_write_some`` (i.e. send) on peer connection sockets. When
			// seeding at extremely high rates, this may become a bottleneck, and
			// setting this to 2 or more may parallelize that cost. When using SSL
			// torrents, all encryption for outgoing traffic is done within the
			// socket send functions, and this will help parallelizing the cost of
			// SSL encryption as well.
			network_threads TORRENT_DEPRECATED_ENUM,

			// ``ssl_listen`` sets the listen port for SSL connections. If this is
			// set to 0, no SSL listen port is opened. Otherwise a socket is
			// opened on this port. This setting is only taken into account when
			// opening the regular listen port, and won't re-open the listen
			// socket simply by changing this setting.
			ssl_listen TORRENT_DEPRECATED_ENUM,
#else
			// hidden
			deprecated_aio_max,
			deprecated_network_threads,
			deprecated_ssl_listen,
#endif

			// ``tracker_backoff`` determines how aggressively to back off from
			// retrying failing trackers. This value determines *x* in the
			// following formula, determining the number of seconds to wait until
			// the next retry:
			//
			//    delay = 5 + 5 * x / 100 * fails^2
			//
			// This setting may be useful to make libtorrent more or less
			// aggressive in hitting trackers.
			tracker_backoff,

			// when a seeding torrent reaches either the share ratio (bytes up /
			// bytes down) or the seed time ratio (seconds as seed / seconds as
			// downloader) or the seed time limit (seconds as seed) it is
			// considered done, and it will leave room for other torrents. These
			// are specified as percentages. Torrents that are considered done will
			// still be allowed to be seeded, they just won't have priority anymore.
			// For more, see queuing_.
			share_ratio_limit,
			seed_time_ratio_limit,

			// peer_turnover is the percentage of peers to disconnect every
			// turnover peer_turnover_interval (if we're at the peer limit), this
			// is specified in percent when we are connected to more than limit *
			// peer_turnover_cutoff peers disconnect peer_turnover fraction of the
			// peers. It is specified in percent peer_turnover_interval is the
			// interval (in seconds) between optimistic disconnects if the
			// disconnects happen and how many peers are disconnected is
			// controlled by peer_turnover and peer_turnover_cutoff
			peer_turnover,
			peer_turnover_cutoff,
			peer_turnover_interval,

			// this setting controls the priority of downloading torrents over
			// seeding or finished torrents when it comes to making peer
			// connections. Peer connections are throttled by the connection_speed
			// and the half-open connection limit. This makes peer connections a
			// limited resource. Torrents that still have pieces to download are
			// prioritized by default, to avoid having many seeding torrents use
			// most of the connection attempts and only give one peer every now
			// and then to the downloading torrent. libtorrent will loop over the
			// downloading torrents to connect a peer each, and every n:th
			// connection attempt, a finished torrent is picked to be allowed to
			// connect to a peer. This setting controls n.
			connect_seed_every_n_download,

			// the max number of bytes to allow an HTTP response to be when
			// announcing to trackers or downloading .torrent files via the
			// ``url`` provided in ``add_torrent_params``.
			max_http_recv_buffer_size,

			// if binding to a specific port fails, should the port be incremented
			// by one and tried again? This setting specifies how many times to
			// retry a failed port bind
			max_retry_port_bind,

			// a bitmask combining flags from alert_category_t defining which
			// kinds of alerts to receive
			alert_mask,

			// control the settings for incoming and outgoing connections
			// respectively. see enc_policy enum for the available options.
			// Keep in mind that protocol encryption degrades performance in
			// several respects:
			//
			// 1. It prevents "zero copy" disk buffers being sent to peers, since
			//    each peer needs to mutate the data (i.e. encrypt it) the data
			//    must be copied per peer connection rather than sending the same
			//    buffer to multiple peers.
			// 2. The encryption itself requires more CPU than plain bittorrent
			//    protocol. The highest cost is the Diffie Hellman exchange on
			//    connection setup.
			// 3. The encryption handshake adds several round-trips to the
			//    connection setup, and delays transferring data.
			out_enc_policy,
			in_enc_policy,

			// determines the encryption level of the connections. This setting
			// will adjust which encryption scheme is offered to the other peer,
			// as well as which encryption scheme is selected by the client. See
			// enc_level enum for options.
			allowed_enc_level,

			// the download and upload rate limits for a torrent to be considered
			// active by the queuing mechanism. A torrent whose download rate is
			// less than ``inactive_down_rate`` and whose upload rate is less than
			// ``inactive_up_rate`` for ``auto_manage_startup`` seconds, is
			// considered inactive, and another queued torrent may be started.
			// This logic is disabled if ``dont_count_slow_torrents`` is false.
			inactive_down_rate,
			inactive_up_rate,

			// proxy to use. see proxy_type_t.
			proxy_type,

			// the port of the proxy server
			proxy_port,

			// sets the i2p_ SAM bridge port to connect to. set the hostname with
			// the ``i2p_hostname`` setting.
			//
			// .. _i2p: http://www.i2p2.de
			i2p_port,

#if TORRENT_ABI_VERSION == 1
			// this determines the max number of volatile disk cache blocks. If the
			// number of volatile blocks exceed this limit, other volatile blocks
			// will start to be evicted. A disk cache block is volatile if it has
			// low priority, and should be one of the first blocks to be evicted
			// under pressure. For instance, blocks pulled into the cache as the
			// result of calculating a piece hash are volatile. These blocks don't
			// represent potential interest among peers, so the value of keeping
			// them in the cache is limited.
			cache_size_volatile,
#else
			deprecated_cache_size_volatile,
#endif

			// The maximum request range of an url seed in bytes. This value
			// defines the largest possible sequential web seed request. Lower values
			// are possible but will be ignored if they are lower then piece size.
			// This value should be related to your download speed to prevent
			// libtorrent from creating too many expensive http requests per
			// second. You can select a value as high as you want but keep in mind
			// that libtorrent can't create parallel requests if the first request
			// did already select the whole file.
			// If you combine bittorrent seeds with web seeds and pick strategies
			// like rarest first you may find your web seed requests split into
			// smaller parts because we don't download already picked pieces
			// twice.
			urlseed_max_request_bytes,

			// time to wait until a new retry of a web seed name lookup
			web_seed_name_lookup_retry,

			// the number of seconds between closing the file opened the longest
			// ago. 0 means to disable the feature. The purpose of this is to
			// periodically close files to trigger the operating system flushing
			// disk cache. Specifically it has been observed to be required on
			// windows to not have the disk cache grow indefinitely.
			// This defaults to 120 seconds on windows, and disabled on other
			// systems.
			close_file_interval,

			// When uTP experiences packet loss, it will reduce the congestion
			// window, and not reduce it again for this many milliseconds, even if
			// experiencing another lost packet.
			utp_cwnd_reduce_timer,

			// the max number of web seeds to have connected per torrent at any
			// given time.
			max_web_seed_connections,

			// the number of seconds before the internal host name resolver
			// considers a cache value timed out, negative values are interpreted
			// as zero.
			resolver_cache_timeout,

			// specify the not-sent low watermark for socket send buffers. This
			// corresponds to the, Linux-specific, ``TCP_NOTSENT_LOWAT`` TCP socket
			// option.
			send_not_sent_low_watermark,

			// the rate based choker compares the upload rate to peers against a
			// threshold that increases proportionally by its size for every
			// peer it visits, visiting peers in decreasing upload rate. The
			// number of upload slots is determined by the number of peers whose
			// upload rate exceeds the threshold. This option sets the start
			// value for this threshold. A higher value leads to fewer unchoke
			// slots, a lower value leads to more.
			rate_choker_initial_threshold,

			// The expiration time of UPnP port-mappings, specified in seconds. 0
			// means permanent lease. Some routers do not support expiration times
			// on port-maps (nor correctly returning an error indicating lack of
			// support). In those cases, set this to 0. Otherwise, don't set it any
			// lower than 5 minutes.
			upnp_lease_duration,

			// limits the number of concurrent HTTP tracker announces. Once the
			// limit is hit, tracker requests are queued and issued when an
			// outstanding announce completes.
			max_concurrent_http_announces,

			// the maximum number of peers to send in a reply to ``get_peers``
			dht_max_peers_reply,

			// the number of concurrent search request the node will send when
			// announcing and refreshing the routing table. This parameter is called
			// alpha in the kademlia paper
			dht_search_branching,

			// the maximum number of failed tries to contact a node before it is
			// removed from the routing table. If there are known working nodes that
			// are ready to replace a failing node, it will be replaced immediately,
			// this limit is only used to clear out nodes that don't have any node
			// that can replace them.
			dht_max_fail_count,

			// the total number of torrents to track from the DHT. This is simply an
			// upper limit to make sure malicious DHT nodes cannot make us allocate
			// an unbounded amount of memory.
			dht_max_torrents,

			// max number of items the DHT will store
			dht_max_dht_items,

			// the max number of peers to store per torrent (for the DHT)
			dht_max_peers,

			// the max number of torrents to return in a torrent search query to the
			// DHT
			dht_max_torrent_search_reply,

			// the number of seconds a DHT node is banned if it exceeds the rate
			// limit. The rate limit is averaged over 10 seconds to allow for bursts
			// above the limit.
			dht_block_timeout,

			// the max number of packets per second a DHT node is allowed to send
			// without getting banned.
			dht_block_ratelimit,

			// the number of seconds a immutable/mutable item will be expired.
			// default is 0, means never expires.
			dht_item_lifetime,

			// the info-hashes sample recomputation interval (in seconds).
			// The node will precompute a subset of the tracked info-hashes and return
			// that instead of calculating it upon each request. The permissible range
			// is between 0 and 21600 seconds (inclusive).
			dht_sample_infohashes_interval,

			// the maximum number of elements in the sampled subset of info-hashes.
			// If this number is too big, expect the DHT storage implementations
			// to clamp it in order to allow UDP packets go through
			dht_max_infohashes_sample_count,

			// ``max_piece_count`` is the maximum allowed number of pieces in
			// metadata received via magnet links. Loading large torrents (with
			// more pieces than the default limit) may also require passing in
			// a higher limit to read_resume_data() and
			// torrent_info::parse_info_section(), if those are used.
			max_piece_count,

			// this is the minimum allowed announce interval for a WebSocket
			// tracker used by WebTorrent to signal WebRTC connections. This is
			// specified in seconds and is used as a sanity check on what is
			// returned from a tracker.
			min_websocket_announce_interval,

			// the WebRTC connection timeout used by WebTorrent (in seconds)
			webtorrent_connection_timeout,

			max_int_setting_internal
		};

		// hidden
		constexpr static int num_string_settings = int(max_string_setting_internal) - int(string_type_base);
		constexpr static int num_bool_settings = int(max_bool_setting_internal) - int(bool_type_base);
		constexpr static int num_int_settings = int(max_int_setting_internal) - int(int_type_base);

		enum suggest_mode_t : std::uint8_t { no_piece_suggestions = 0, suggest_read_cache = 1 };

		enum choking_algorithm_t : std::uint8_t
		{
			// This is the traditional choker with a fixed number of unchoke
			// slots (as specified by settings_pack::unchoke_slots_limit).
			fixed_slots_choker = 0,

			// This opens up unchoke slots based on the upload rate achieved to
			// peers. The more slots that are opened, the marginal upload rate
			// required to open up another slot increases. Configure the initial
			// threshold with settings_pack::rate_choker_initial_threshold.
			//
			// For more information, see `rate based choking`_.
			rate_based_choker = 2,
#if TORRENT_ABI_VERSION == 1
			bittyrant_choker TORRENT_DEPRECATED_ENUM = 3
#else
			deprecated_bittyrant_choker = 3
#endif
		};

		enum seed_choking_algorithm_t : std::uint8_t
		{
			// which round-robins the peers that are unchoked
			// when seeding. This distributes the upload bandwidth uniformly and
			// fairly. It minimizes the ability for a peer to download everything
			// without redistributing it.
			round_robin,

			// unchokes the peers we can send to the fastest. This might be a
			// bit more reliable in utilizing all available capacity.
			fastest_upload,

			// prioritizes peers who have just started or are
			// just about to finish the download. The intention is to force
			// peers in the middle of the download to trade with each other.
			// This does not just take into account the pieces a peer is
			// reporting having downloaded, but also the pieces we have sent
			// to it.
			anti_leech
		};

		enum io_buffer_mode_t : std::uint8_t
		{
			enable_os_cache = 0,
#if TORRENT_ABI_VERSION == 1
			disable_os_cache_for_aligned_files TORRENT_DEPRECATED_ENUM = 2,
#else
			deprecated_disable_os_cache_for_aligned_files = 1,
#endif
			disable_os_cache = 2
		};

		enum bandwidth_mixed_algo_t : std::uint8_t
		{
			// disables the mixed mode bandwidth balancing
			prefer_tcp = 0,

			// does not throttle uTP, throttles TCP to the same proportion
			// of throughput as there are TCP connections
			peer_proportional = 1
		};

		// the encoding policy options for use with
		// settings_pack::out_enc_policy and settings_pack::in_enc_policy.
		enum enc_policy : std::uint8_t
		{
			// Only encrypted connections are allowed. Incoming connections that
			// are not encrypted are closed and if the encrypted outgoing
			// connection fails, a non-encrypted retry will not be made.
			pe_forced,

			// encrypted connections are enabled, but non-encrypted connections
			// are allowed. An incoming non-encrypted connection will be accepted,
			// and if an outgoing encrypted connection fails, a non- encrypted
			// connection will be tried.
			pe_enabled,

			// only non-encrypted connections are allowed.
			pe_disabled
		};

		// the encryption levels, to be used with
		// settings_pack::allowed_enc_level.
		enum enc_level : std::uint8_t
		{
			// use only plain text encryption
			pe_plaintext = 1,
			// use only RC4 encryption
			pe_rc4 = 2,
			// allow both
			pe_both = 3
		};

		enum proxy_type_t : std::uint8_t
		{
			// No proxy server is used and all other fields are ignored.
			none,

			// The server is assumed to be a `SOCKS4 server`_ that requires a
			// username.
			//
			// .. _`SOCKS4 server`: http://www.ufasoft.com/doc/socks4_protocol.htm
			socks4,

			// The server is assumed to be a SOCKS5 server (`RFC 1928`_) that does
			// not require any authentication. The username and password are
			// ignored.
			//
			// .. _`RFC 1928`: http://www.faqs.org/rfcs/rfc1928.html
			socks5,

			// The server is assumed to be a SOCKS5 server that supports plain
			// text username and password authentication (`RFC 1929`_). The
			// username and password specified may be sent to the proxy if it
			// requires.
			//
			// .. _`RFC 1929`: http://www.faqs.org/rfcs/rfc1929.html
			socks5_pw,

			// The server is assumed to be an HTTP proxy. If the transport used
			// for the connection is non-HTTP, the server is assumed to support
			// the CONNECT_ method. i.e. for web seeds and HTTP trackers, a plain
			// proxy will suffice. The proxy is assumed to not require
			// authorization. The username and password will not be used.
			//
			// .. _CONNECT: http://tools.ietf.org/html/draft-luotonen-web-proxy-tunneling-01
			http,

			// The server is assumed to be an HTTP proxy that requires user
			// authorization. The username and password will be sent to the proxy.
			http_pw,

			// route through a i2p SAM proxy
			i2p_proxy
		};
	private:

		std::vector<std::pair<std::uint16_t, std::string>> m_strings;
		std::vector<std::pair<std::uint16_t, int>> m_ints;
		std::vector<std::pair<std::uint16_t, bool>> m_bools;
	};
}

#endif
